一种测量多孔介质中两相流体水、油相对渗透率的新方法

A. Mamghaderi, B. Rostami, S. Tabatabaie
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引用次数: 1

摘要

在本研究中,采用非稳态渗吸试验的直接实验室测量方法,在没有预定功能假设的情况下获得相对渗透率曲线。在一定的假设条件下,将连续性方程、达西定律、累积产油量和水分流方程结合在一起,提出了解释这些数据的新方法。我们假设毛细管压力是先前测量的,并作为该方法的输入数据。这项工作与以往的非稳态方法的主要区别在于,用新的饱和度相关图取代了获得相对渗透率曲线所需的饱和度曲线,该曲线可以从采收率数据中测量,而不是在实验中直接记录。利用文献中的恢复数据对该方法进行了论证,然后用数值模拟器对其进行了验证。结果表明,该方法的精度可与精确的复形方法相媲美。灵敏度分析表明,该方法适用于相对较高的毛细数和/或较低的水油流度比,以及具有均匀孔隙大小的介质,可以获得更准确的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Approach to Measuring Water and Oil Relative Permeabilities in Two-phase Fluid Flow in Porous Media
In this study, direct laboratory measurements of unsteady-state imbibition test are used in a new approach to obtain relative permeability curves with no predetermined functionality assumptions. Four equations of continuity, Darcy’s law, cumulative oil production, and water fractional flow are employed in combination together under certain assumptions to present the new approach which interprets these data. We assumed that capillary pressure was previously measured and used as the input data in the method. The main difference between this work and previous unsteady-state methods is to replace the saturation profile, needed to obtain relative permeability curves, with a new saturation-dependent graph which can be measured from recovery data rather than being recorded directly during experiments. The method is demonstrated by employing recovery data from the literature, and it is then verified by a numerical simulator. The results show that the accuracy of the proposed method is comparable with accurate complex methods. Performing sensitivity analysis indicates that the proposed method can achieve more accurate results when applied to cases with a relatively high capillary number and/or low water-oil mobility ratio and when applied to media having uniformly sized pores.
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